气浮运动组件内外球面的角摆静压力自动补偿研磨方法

根据磁悬浮零部件专用测量机气浮运动组件内外球面的高精度技术要求,设计一种角摆静压力自动补偿万向球头节研磨机构,在普通车床上采用内外球面自动研磨的方法代替传统手工对研.实践证明提高了气浮运动组件的研磨质量和效率,有一定参考价值.     

基于LabVIEW的超精密磨床嵌入式监控系统

针对超精密磨削机床的监控需求,基于NI–sbRIO硬件平台开发了一套应用于超精密磨床状态监测和数据采集的嵌入式监控系统,使用FPGA对温度、振动、声发射等信息进行实时数据采集,并使用实时处理器对数据进行分析和处理,实现对机床的实时状态监测和数据存储。通过FPGA编程取代硬件数据采集卡,成本低,灵活性强。试验表明,该系统能够胜任超精密磨床的监控任务。     

电镀砂轮磨损对GH4169磨削表面完整性的影响

电镀砂轮具有优异的成型性和形状保持能力,越来越广泛地应用于复杂曲面的加工,但是磨损对零件表面完整性影响的研究并不充分.在深入分析利用圆环型砂轮在插磨方式下加工GH4169试件所产生的表面形貌形成规律的基础上,对高刚度矩形试件的磨削表面粗糙度随砂轮磨削量的变化进行了详细记录,并对某型号发动机静子叶片进行实际磨削验证.试验结果表明,精磨时适当的砂轮磨损可以使高刚度试件表面粗糙度下降35％,对表面硬度和残余应力影响不大;而叶片的弱刚度会大幅提高磨削粗糙度,但适当的砂轮磨损可以使叶片端部粗糙度下降64％,并降低刚度对粗糙度的影响,进而提高叶片表面磨削质量的一致性.因此,通过磨削粗糙度对砂轮的磨损状况进行大致评估,选择合适磨损量的砂轮用于精加工,以充分降低工件的表面粗糙度并提高磨削质量的一致性.     

Specific grinding energy and surface roughness of nanoparticle jet minimum quantity lubrication in grinding

Nanoparticles with the anti-wear and friction reducing features were applied as cooling lubricant in the grinding fluid. Dry grinding, flood grinding, minimal quantity of lubrication（MQL）, and nanoparticle jet MQL were used in the grinding experiments. The specific grinding energy of dry grinding, flood grinding and MQL were 84, 29.8, 45.5 J/mm³, respectively. The specific grinding energy significantly decreased to 32.7 J/mm³ in nanoparticle MQL. Compared with dry grinding, the surface roughness values of flood grinding, MQL, and nanoparticle jet MQL were significantly reduced with the surface topography profile values reduced by 11%, 2.5%, and 10%,respectively, and the ten point height of microcosmic unflatness values reduced by 1.5%, 0.5%,and 1.3%, respectively. These results verified the satisfactory lubrication effects of nanoparticle MQL. MoS₂, carbon nanotube（CNT）, and ZrO₂ nanoparticles were also added in the grinding fluid of nanoparticle jet MQL to analyze their grinding surface lubrication effects. The specific grinding energy of MoS₂ nanoparticle was only 32.7 J/mm³, which was 8.22% and 10.39% lower than those of the other two nanoparticles. Moreover, the surface roughness of workpiece was also smaller with MoS₂ nanoparticle, which indicated its remarkable lubrication effects. Furthermore,the role of MoS₂ particles in the grinding surface lubrication at different nanoparticle volume concentrations was analyzed. MoS₂ volume concentrations of 1%, 2%, and 3% were used.Experimental results revealed that the specific grinding energy and the workpiece surface roughness initially increased and then decreased as MoS₂ nanoparticle volume concentration increased.Satisfactory grinding surface lubrication effects were obtained with 2% MoS₂ nanoparticle volume concentration.     

Grinding performance evaluation of porous composite-bonded CBN wheels for Inconel 718

For high-efficiency grinding of difficult-to-cut materials such as titanium and nickel alloys, a high porosity is expected and also a sufficient mechanical strength to satisfy the function.However, the porosity increase is a disadvantage to the mechanical strength. As a promising pore forming agent, alumina bubbles are firstly induced into the abrasive layer to fabricate porous cubic boron nitride（CBN） wheels. When the wheel porosity reaches 45%, the bending strength is still high up to 50 MPa with modified orderly pore distribution. A porous CBN wheel was fabricated with a total porosity around 30%. The grinding performance of the porous composite-bonded CBN wheel was evaluated in terms of specific force, specific grinding energy, and grinding temperature, which were better than those of the vitrified one under the same grinding conditions. Compared to the vitrified CBN wheel, clear straight cutting grooves and less chip adhesion are observed on the ground surface and there is also no extensive loading on the wheel surface after grinding.     

页轮干式磨削Ti6Al4V合金

进行了Ti6A14V合金锆刚玉页轮和碳化硅页轮的磨削性能试验研究，分析了磨削用量对磨削力、磨削温度和磨削表面完整性的影响。磨削力通过KISTLER9265B测力仪测定，磨削表面温度由NIUSB-621X信号采集系统测得，磨削表面形貌和金相组织由HiroxKH-7700型体视显微仪和Quanta200型扫描电镜（SEM）观察，表面粗糙度由Mahr Perthometer M1粗糙度仪测得，表层显微硬度通过HVS—1000硬度计测定。研究结果表明：页轮磨削钛合金工件表面没有发生烧伤现象，磨削热影响区厚度小于50μm，锆刚玉页轮比碳化硅页轮更适合干式磨削钛合金。     

单层超硬磨料砂轮制造技术新发展

概述了国外单层高温钎焊超硬磨料砂轮的工艺优势及主要研究成果，这种新型超硬磨料砂轮以其卓越的磨削性能已在国内外磨削界引起了轰动，它在今后逐步替代传统砂轮应是一种无法抗拒的必然趋势。鉴于它极其广阔的应用前景，国内在推广应用超硬磨料砂轮时也必将大力引进开发此种单层钎焊砂轮。为使国内开发钎焊砂轮有一个更高的起点，作者提出了关于开展这一领域研究的若干构想和实施方案     

单层钎焊砂盘磨粒分布有序性研究

对亲型非砂轮磨削工具－－单层钎焊砂盘的硬质合金磨粒在基体上的分布进行了初步研究，砂盘作为一种手握粗磨削工具，降低磨削力是最重要的，文中借鉴砂带及单层高温钎焊超硬磨料砂轮的一些研究，提出了砂盘的磨粒在基体上有序性分布的概念，将此概念应用于砂盘钎焊制造工艺上，在相同的制造工艺和磨洵深度条件下，对得到的磨粒有序性及无序性分布的砂盘进行了磨削对比实验。结果表明，砂盘磨粒的有序性分布能显著降低其磨削力。此概     

超精密设备的简谐激励主动消振

某些超精密设备可以简化成一个简单的二自由度振动系统,上质量块起到消振作用,当对下质量块施加简谐激振时,设备主体振动被削弱,若上下质量块重量比选择适当,则设备主体振动可完全消除。     

不锈钢镜面的游离磨粒精密加工

利用游离磨粒加工方法对马氏体平面不锈钢SUS440C试件进行精密加工.通过田口实验方法对研磨阶段的工艺参数进行了优化,涉及的工艺参数包括研磨盘转速、加工载荷和加工时间.利用优化的研磨工艺加工后试件表面粗糙度达Ra72nm.抛光过程中使用聚氨酯抛光垫和二氧化硅磨粒,经抛光后试件表面粗糙度达Ra8nm、表面呈镜面.